DANBURY’S TOP RATED LOCAL® FLOORING

Information About Flooring

RELATIVE HARDNESS OF SELECTED

WOOD FLOORING SPECIES

(Ranked by Janka hardness rating)

If you’re interested in installing hardwood flooring or parquet floors, then take the time to learn more information about the flooring at Zoltan European Floors, Inc.

The Janka (or side) hardness test measures the force required to embed a .444-inch steel ball to half its diameter in wood. It is one of the best measures of the ability of a wood species to withstand denting and wear. By the same token, it is also a good indicator of how hard or easy a species is to saw or nail. Northern red oak, for example, has a Janka hardness rating of 1290. Brazilian cherry, with a rating of 2350, is nearly twice as hard. If you’re accustomed to working with red oak and decide to tackle a job with Brazilian cherry, you can expect it to be much harder to cut or nail.

SPECIES

RATING

Rosewood

3170

Brazilian cherry

2350

Mesquite

2345

Santos Mahogany

2200

Merbau

1925

Jarrah

1910

Purpleheart

1860

Hickory/Pecan

1820

African padauk

1725

Wenge

1630

Hard Maple

1450

Australian cypress

1375

White oak

1360

Ash

1320

American beech

1300

Red oak (northern)

1290

Yellow birch

1260

Heart pine

1225

Black walnut

1010

Ash

1320

Teak

1000

Black cherry

950

Yellow birch

1260

Southern yellow pine (longleaf)

870

Douglas fir

660

RELATIVE STABILITY OF SELECTED

WOOD FLOORING SPECIES

(Ranked by dimensional change coefficient)

The numbers in the chart reflect the dimensional change coefficient for the various species, measured as tangential shrinkage or swelling switching normal moisture content limits of six to 14 percent. Tangential change values will normally reflect changes in plainsong wood. Quartersawn wood will usually be more dimensionally stable than plainsawn.

The dimensional change coefficient can be used to calculate expected shrinkage or swelling. Simply multiply the change in moisture content by the change coefficient, then multiply by the width of the board.

Example: A mesquite (change coefficient = .00129) board five inches wide experiences a moisture content change from six to nine percent — a change of three percentage points.

Calculation: 3 x .00129 = .00387 X 5 = .019 inches

In actual practice, however, change would be diminished in a complete floor, as the boards’ proximity to each other tends to restrain movement.

The chart is best used for comparison.

* Although some tropical woods such as Australian cypress, Brazilian cherry, merbau and wenge appear in this chart to have excellent moisture stability compared to domestic oak, actual installations of many of these woods have demonstrated significant movement in use. To avoid problems later, extra care should be taken to inform potential users of these tendencies prior to purchase.